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China, Chinese 300j Customzied Falling Weight Impact Tester Drop Ball Impact Tester¹ Industrial Products Supplier Manufacturer Details, price list catalog:

China Industrial Products Supplier Manufacturer List Catalog

Test Instrument Test Machine Falling Weight Impact Tester Drop Hammer Impact Tester

Jinan Chenji International Trade Co., Ltd.

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Product Description Name: Instrumented Drop Weight Impact Test SystemModel: FHLC-300YProduct Name: Drop Weight Impact Testing MachineModel:FHLC-300YBased on the following standards:GB/T 2611-2007 "Testing Machines - General Technical Requirements"JB/T 7406.1-1994 "Testing Machine Terminology - Materials Testing Machines"JB/T 6147-2007 "Technical Requirements for Packaging, Package Marking, Storage and Transportation of Testing Machines"ASTM D3763 "High-Speed Puncture Test Method for Plastics"ASTM E 23-07a "Standard Test Methods for Notched Bar Impact Testing of Metallic Materials"DIN 50115 "Impact Testing of Metallic Materials - Special Specimen Dimensions and Fracture Determination"ASTM D 7136/D 7136M-05 "Standard Test Method for Measuring the Damage Resistance of a Fiber-Reinforced Polymer Matrix Composite to a Drop-Weight Impact Test" EventProduct Introduction and Features:Product Introduction:The FHLC-300Y instrumented drop hammer impact test system uses the impact method to test the impact resistance of metals, non-metals, and components. It can verify the process quality of materials or products.The measurement and control system's high-speed data acquisition processor records the force and deformation changes over time during the impact of the specimen. Force-time distribution curves can be used to analyze the impact deformation resistance of different materials.According to ASTM D3763, "Plastics High-Speed Puncture Test Method," it can analyze and process the high-speed puncture performance of plastics and customize the system to meet user requirements.Adding an environmental test chamber system allows impact testing of materials or components at ambient temperatures ranging from -70°C to 150°C.Technical Features and Advantages:1. The main unit features a streamlined design with a stable column-frame structure. The test chamber and test fixture are housed within the workbench or lower chamber. The moving crossbeam connects to different hammer sections via hooked release mechanisms of varying sizes. The hammer section is connected to the punch via a load cell, and the punch can be equipped with impact tips of varying shapes and energies to suit different impact standards. Driven by ball screws on both sides, the moving crossbeam moves up and down at a constant speed. Springs are compressed to store energy, raising the hammer to a set height according to the software's preset energy level. The screw drive mechanism is located on the upper crossbeam, and a transparent protective cover is installed within the moving space, resulting in a rational, safe, and aesthetically pleasing structural layout.2. A servo motor drives the synchronous belt, which provides precise and reliable movement of the moving crossbeam.3. The hammer can freely fall downward along the guide columns on both sides, or using a combination of spring acceleration and free fall, at different workstations, to achieve impact at the impact point.4. The load sensor measures force changes during the impact process. The high-precision, high-frequency load sensor, after random calibration, is unaffected by external forces during the test and accurately measures force changes during the impact process.5. Crosshead movement is controlled by an intelligent, fully digital controller with user-friendly human-computer interaction. After presetting the energy and speed according to user requirements, the hammer is raised to the desired height, ensuring precise crosshead positioning and accurate release of the hammer upon reaching the specified height. The entire test process is fully automated.6. The maximum data sampling frequency is no less than 2MHz, with a storage capacity of no less than 16,250 points per channel and a force indication error of less than 2%. Interface slots are reserved for expansion of no less than four channels.7. The measurement and control system is equipped with a dedicated test software package and utilizes high-speed data acquisition technology to achieve high-speed multi-channel data acquisition. Test results can be analyzed and processed according to standard test methods, and it features human-computer interactive programming and control. Powerful graphical operations enable real-time display of test curves and data, including curve scaling, graph enlargement, and capture, as well as cursor-following display. It has the function of storing complete test curves and test data; it has the function of outputting single-piece test reports and printing batch test reports;8. (1) It supports the pneumatic anti-rebound system to prevent secondary impact and supports the hydraulic shock absorber to absorb excess impact energy;(2) Spring drive device: It uses a motor with an encoder to accurately compress the spring. The maximum speed is not less than 24m/s when loaded with a 2kg weight, and the maximum speed is not less than 7m/s when loaded with a 70kg weight, and the maximum potential energy is not less than 300J;(3) The physical drop height range is not higher than 1.1m, and the equivalent maximum height of the spring-driven high-energy system simulation is not less than 29m;(4) The system supports instrumented testing capabilities.9. It has a network interface to realize data networking and remote control functions;10. Safety protection device: It has protections such as post-impact buffer device, over-setting, power off, and beam reaching the limit position.Product Structure and Performance:This testing machine consists of three parts: the main unit, a measurement and control system, an environmental test chamber system, and test accessories.(I) Main UnitMain Unit Structure:The main unit features a four-column support frame structure, with dual lead screws and four guide columns arranged inside. The movable crossbeam's movement space is located between the upper crossbeam and the workbench, while the impact test space is located between the workbench and the base.The main unit consists of the base, upper crossbeam, workbench, movable crossbeam, ball screw assembly, support columns, and guide columns. The lead screw drive is mounted on the upper crossbeam. The upper crossbeam and workbench are connected by support columns to form the movable space. The punch is connected to the impact hammer via a sensor. The movable crossbeam moves up and down, driven by the lead screw, raising the impact hammer and compressing the spring assembly to store energy. The upward and downward movement of the movable crossbeam is achieved by the lead screw driven by a motor reducer mounted on the upper crossbeam. The main unit comes with an LCD operation panel and pneumatic pressure platen, allowing direct control via the LCD panel. Manual controls include crosshead raising and lowering, punch release, clamp opening and closing, chamber start/stop, and one-touch defrost. The pneumatic pressure platen has a clamping force of ≥3kN and automatically clamps and releases the sample.During the test, the sample is placed securely on the workbench or on a support fixture within the enclosed chamber below. The punch strikes the sample downward through a hole in the workbench. Sensors and displacement measuring devices accurately measure the force changes and displacement during the penetration process.After the test, the crosshead automatically returns to its original position. The entire test process can be automatically completed according to the set values.Testing Machine Measurement and Control SystemIntroduction to Instrumented Impact Software1. Real-time Equipment Dataa.) Impact Forceb.) Accelerationc.) Height2. Click the buttona.) View Datab.) Calibrate Sensorc.) Raise Hammerd.) Start Test3. Select the X-axis and Y-axis to plot different curves. After changing the X-axis, click Replot.4. Displays curve positions and multiple coordinates for displaying multiple curves5. Device status bar to view the current device status6. Set the data reception time and impact mode.a.) Set the impact mode to Energy. b.) Set the impact mode to Altitude. c.) Set the impact mode to Speed.7. Click to enter the 3D interface.8. 3D Graphics Interface9. Click PLC Manual Control to enter the manual control interface.a.) Click to engageb.) Click to releasec.) Low-speed ascentd.) High-speed ascente.) Release secondary impact to engagef.) Release secondary impact to releaseg.) Low-speed descenth.) High-speed descent 10. Post-Test GraphAfter setting the data acquisition time and energy impact method, raise the hammer to a certain height and click Start Test.The test officially begins when the text message "Data acquisition begins" appears on the right side of the software. The software begins plotting the graph when the "Test Completed" message appears on the right side of the software. You can adjust the X or Y axis units to create different graphs to meet different requirements. 3D ImageClick on the impact process simulation to enter the 3D image interface, which visually displays the energy changes during the impact process. (III) Load sensor1. Load sensor and acceleration sensor Quantity: one each;(1) One set of data acquisition cards for strain gauge sensor and piezoelectric sensor;(2) The load sensor supports adjustable range. The sensor supports calibration and use in different ranges of 10%, 20%, 50%, and 100%. The load range can be adjusted as needed to obtain load accuracy and improve system configuration flexibility;(3) The piezoelectric instrumented hammer head has a high resonant (unloading) frequency of ≥75kHz. (IV) Automation and Safety Features1. The test equipment must have a drive motor control system. After setting the impact height and hammer weight, the test start can be controlled via a computer and control buttons. The test machine should fully automate the lifting, release, and data collection process.2. It must provide a voice prompt before impact, and the impact bracket must not come into frictional contact with any guide rods during the impact.3. The equipment's protective door must have a self-locking function: When the door is open, the test machine will automatically lock, disabling all major operations. This prevents misoperation and ensures the safety of test personnel.4. Stability Requirements: The machine must not shake during the impact test, and components must not become loose after repeated tests. Product standard technical parameters:Host parameters:Main Machine ParametersFHLC-300YNumber of Columns80 type column (4 columns, 2 screws, 2 guide columns)Maximum Crossbeam Stroke (mm)2000Column Diameter (mm)Φ40Screw Diameter (mm)3020Worktable Dimensions (mm)900×580Worktable Thickness (mm)40Crossbeam Thickness (mm)80 Measurement parameters:NO.NameTechnical Parameter1Impact energy300J2Impact velocity6.2-10m/s3Impact height0.4-2000mm4Range speed1m/min5Hammer positioning accuracy1mm6Maximum load of tensile dynamic sensor50kN5007Static linearity error of tensile dynamic sensorFull scale±1%(10%~50%FS)±2%(50%~100%FS)8A/D sampling resolution16bits10Frequency response200kHz11Acquisition frequency2Mhz312Test dynamic error<2%13Testing machine dimensions800×600mm×2800mm14Testing machine net weight300kg15Power supplyThree-phase five-wire system, 220V, 50HZ, convertible to 60HZAttached parameters:Parameters:FHLC-300YClamping MethodManual clampingSpecimen Size Range (mm)According to user needsPunch TypeAccording to user needsPunch Length (mm)According to user needs Machine parameters:ItemDrop weight impact test machineMain unit dimensions900×580×3100Weight (kg)Approximately 1200Motor power (kW)0.75Usage environmentNo vibration, no dust; room temperature (10-35°C); humidity ≤ 80% Environmental test chamber system (optional)a) System Components1. High and Low Temperature Environmental Test Chamber (including heating compensation system)2. Low-Temperature Freon Dual-Unit Compressor Refrigeration System (1 set)3. Temperature Control System (Xiamen-Yudian) (1 set)4. High-Precision Temperature Sensor (PID Control) (1 set)5. Mobile Support Vehicle (1 set)6. Scale-Type Multi-Stage Cooler (1 set)7. Test Chamber Air Circulation System (1 set) (b) Technical parametersPower supplyAC380V 50HzControl methodPID controlCooling methodAir-cooled, semi-hermetic, single-stage refrigerationPerformance guaranteed ambient temperature range+5oC~+35oCperformanceTemperature range-70oC~+150oCHigh temperature error±2oCLow temperature error±1oCCooling time+20oC~-25oC about 50 minutesWarming time+20oC~+100oC about 30 minutesConstituteCompositionMaterial Shell materialPowder-coated steel plateInner body material1Cr18Ni9Ti stainless steel plateInsulation materialFiberglass, rigid polyurethane foamTestChamberTemperature control roomHeater, cooler, blowerTest chamberThermocouple, upper and lower levers, clamps, lightingTest chamber doorSealing strips, door handle (left handle, right hinge), observation windowControl box and data processing systemDigital thermostat, power cord, ground terminal, computer and printer, switchboard, A/D boardMechanical roomOne air-cooled chiller unit with removable cabinet and unit standHeaterOne 2.5kW infrared electric heaterCoolerRadiator-type coolerRefrigeratorSemi-hermetic compressor (air-cooled condenser, filter drier, pressure gauge, pressure controller)BlowerPropeller axial flow blower (φ250mm), 4 bladesSafety deviceOverheat protector, air switch, alarm buzzer, overcurrent circuit breakerTypeThe temperature chamber is integrated with the host and can be installed on the instrument baseInternal effective test spaceNot less than 550mm×550mm×500mm(W×D×H)Environmental chamber doorThe environmental control temperature box supports an automatic shutter baffle design, which can be used to close the impact window to prevent heat loss.Maximum applicable punch diameter not less than70mmProduct Components and Configuration:Standard Main UnitTesting Machine Main Unit: 1 unit1.5kW Servo Motor and Controller (Set): Hongsen3020 Ball Screw (Sets): TBI2 Guide Columns (Sets): TBI1 Planetary Reducer (Set): Shanghai Huangxin4 Columns: HomemadeWorkbench and Crossbeam: HomemadeAir Source: 1 set (Domestic)Measurement and Control System (Set): HomemadeElectrical Control Box (Set): HomemadeMeasurement and Control System (Set): HomemadeDesktop Business Computer: 1 (Business-branded): ASUSPrinter: 1 (A4 inkjet printer)Environmental Chamber Test System (Optional)Environmental Chamber System (Set): HomemadeTemperature Control System (Set): Self-madePunch and fixture requirements (subject to agreement or relevant standards after specific communication):One flat punch, diameter ≥ 50mm, compatible with piezoelectric hammers and all strain gauge sensors, and one lower support plate bracket.One hemispherical punch, diameter ≥ 20mm, compatible with piezoelectric hammers and strain gauge sensors, and one clamping set (including at least one bracket, inner diameter ≥ 40mm).One hemispherical punch, diameter ≥ 16mm, compatible with strain gauge sensors, and one stainless steel CAI fixture base.One conical punch, tip radius ≥ 6.35mm, compatible with strain gauge sensors, meeting non-puncture test requirements, and one clamping set (including at least one bracket, inner diameter ≥ 38.1mm).One pipe test punch, tip radius ≥ 12.7mm, body diameter ≥ 50.8mm, compatible with strain gauge sensors, and one ≥ 90° pipe bracket, suitable for pipe diameters from 25 to 65mm. Safety devicesUpper and lower limit devices: 1 set, self-madeFully enclosed transparent safety net: 1 set, self-madeBuffer device: 1 set, self-madeInstallation and commissioningAfter the contract takes effect, we will provide the user with product schematics, floor plans, installation foundation drawings, and electrical wiring diagrams in advance, specifying specific requirements for water, electricity, gas, and environmental requirements, so that the user can complete installation preparations as required.Upon product arrival, our engineers will assist the user with unpacking, completeness verification, and component inventory.Our engineers will assist the user with machine relocation, installation, and commissioning.After commissioning is completed, we will conduct product acceptance with the user, using standards consistent with relevant inspection standards.After the user's on-site final acceptance, we will sign an acceptance certificate and the product will enter the free warranty period. Maintenance and Care During User UseOnly trained test personnel must operate the product; no one else is allowed to operate it.When using the product, operators must follow the correct procedures and instructions provided by their training.Operators must be proficient in the relevant test standards to accurately interpret test results.Operators must carefully read the user manual and software manual.At the end of the test, the product must be shut down in the correct sequence and all power supplies must be disconnected.If any abnormality occurs in the product, the power supply must be turned off immediately and the test terminated.If any product malfunction is discovered, contact our customer service department immediately and do not disassemble it without authorization.Unauthorized modification of the product is prohibited.Packaging & Shipping

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